MSc S. Rout

PhD student
Bioelectronics (BE), Department of Microelectronics

Expertise: Mixed-signal and analog circuit design for biomedical circuits and systems

Themes: Analog and Mixed-Mode Integrated Circuits and Systems, Biosignal acquisition, conditioning and processing

Biography

Samprajani Rout was born in Cuttack, India in 1990. She received her M.Sc. degree in electrical engineering in 2016 from Section Bioelectronics, Delft University of Technology, The Netherlands in 2016 and is currently working towards her PhD degree at the same group.

 

Her current research interests include mixed-signal and analog circuit design for biomedical circuits and systems.

Publications

  1. Spread-spectrum modulated multi-channel biosignal acquisition using a shared analog CMOS front-end
    Samprajani Rout; Bert Monna; Fabio Pareschi; Gianluca Setti; Wouter A. Serdijn;
    IEEE Transactions on Biomedical Circuits and Systems,
    2023. DOI: 10.1109/TBCAS.2023.3317188
    document

  2. SIGNAL SPECIFIC SAR ADC FOR MULTI-CHANNEL ATRIAL ELECTROGRAM SIGNAL ACQUISITION
    Samprajani Rout; Samaneh Babayan Mashhadi; Wouter A. Serdijn;
    In Book of Abstracts, 7th Dutch Biomedical Engineering Conf. (BME) 2019,
    Jan. 24-25 2019.
    document

  3. Rakeness-based compressed sensing of atrial electrograms for the diagnosis of atrial fibrillation
    Samprajani Rout; Mauro Mangia; Fabio Pareschi; Gianluca Setti; Riccardo Rovatti; Wouter A. Serdijn;
    In proc. 2019 IEEE International Symposium on Circuits and Systems (ISCAS'2019),
    Sapporo, Japan, IEEE, 26-29 May 2019. DOI: 10.1109/ISCAS.2019.8702398
    document

  4. Time and space-domain rakeness-based compressed sensing of atrial electrograms
    S. Rout; M. Mangia; F. Pareschi; G. Setti; R. Rovatti; W. A. Serdijn;
    In Book of Abstracts, SAFE 2019,
    Delft, the Netherlands, July 4-5 2019.
    document

  5. Activity Dependent Multichannel ADC Architecture using Level Crossing Quantisation for Atrial Electrogram Recording
    Aurojyoti Das; Samprajani Rout; Alessandro Urso; Wouter A. Serdijn;
    In Proc. IEEE Biomedical Circuits and Systems Conference (BioCAS 2019),
    IEEE, October 17-19 2019.
    document

  6. A Subthreshold Source-Coupled Logic based Time-Domain Comparator for SAR ADC based Cardiac Front-Ends
    Samprajani Rout; Samaneh Babayan-Mashhadi; Wouter A. Serdijn;
    In proc. IEEE Asian-Pacific Conference on Circuits and Systems (APCCAS 2019),
    Bangkok, Thailand, IEEE, IEEE, November 11-14 2019.
    document

  7. High-Pass ΣΔ Converter Design Using a State-Space Approach and Its Application to Cardiac Signal Acquisition
    Samprajani Rout; Wouter A. Serdijn;
    IEEE Transactions on Biomedical Circuits and Systems,
    Volume 12, Issue 3, June 2018. Open Access. DOI: 10.1109/TBCAS.2018.2817926
    document

  8. High-Pass ΣΔ Converter Design Using a State-Space Approach and Its Application toCardiac Signal Acquisition
    Sampi Rout; Wouter A. Serdijn;
    In Proc. ProRISC,
    Enschede, the Netherlands, June 7-8 2018.
    document

  9. Structured Electronic Design of High-Pass Sigma-Delta Converters and their Application to Cardiac Signal Acquisition
    Samprajani Rout; Wouter Serdijn; Reza Lotfi;
    In Book of Abstracts, 6th Dutch Bio-Medical Engineering Conference, 26 and 27 January 2017, Egmond aan Zee, The Netherlands,
    2017.
    document

  10. Structured electronic design of high-pass Sigma-Delta converters and their application to cardiac signal acquisition
    Samprajani Rout; Wouter A. Serdijn;
    In proc. IEEE International Symposium on Circuits and Systems (ISCAS 2017),
    IEEE, May 28-31 2017.
    document

BibTeX support

Last updated: 19 Jul 2024